Intel EELXT914PE-B3 Intelâ® lxt914 flexible quad ethernet repeater Datasheet

Intel® LXT914 Flexible Quad Ethernet
Repeater
Datasheet
The Intel® LXT914 Flexible Quad Ethernet Repeater (called hereafter the LXT914 Repeater) is
an integrated multi-port repeater designed for mixed-media networks. It provides all the active
circuitry required for the repeater function in a single CMOS device. It includes one Attachment
Unit Interface (AUI) port and four 10BASE-T transceivers. The AUI port is mode selectable:
DTE mode allows connection of an external transceiver (10BASE2, 10BASE5, 10BASE-T or
FOIRL) or a drop cable. MAU mode creates a MAU output allowing direct connection to
another DTE interface. The 10BASE-T transceivers are entirely self-contained with internal
filters which simplify the design work required for FCC-compliant EMI performance.
An inter-repeater backplane interface allows 128 or more 10BASE-T ports to be cascaded
together. In addition, a serial port provides information for network management.
The LXT914 Repeater requires only a single 5-volt power supply due to an advanced CMOS
fabrication process.
Product Features
■
■
■
■
■
■
■
Four integrated 10BASE-T transceivers
and one AUI transceiver on a single chip
Programmable DTE/MAU interface on
AUI port
Seven integrated LED drivers with four
unique operational modes
On-chip transmit and receive filtering
Automatic partitioning of faulty ports,
enabled on an individual port basis
Automatic polarity detection and correction
Programmable squelch level allows
extended range in low-noise environments
■
Synchronous or asynchronous interrepeater backplane supports “hot
swapping”
Inter-repeater backplane allows cascaded
repeaters, linking 128 or more 10BASE-T
ports
Serial port for selecting programmable
options
68-pin PLCC (Commercial or Extended
temp range)
100-pin PQFP (Commercial temp range)
■
Switched Repeater Clusters
■
■
■
■
Applications
■
■
LAN Repeaters
Integrated Repeaters
Order Number: 248989, Revision: 003
31-Oct-2005
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The Intel® LXT914 Flexible Quad Ethernet Repeater may contain design defects or errors known as errata which may cause the product to deviate
from published specifications. Current characterized errata are available on request.
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Copyright © 2005, Intel Corporation. All Rights Reserved.
31-Oct-2005
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Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Contents
1.0
LXT914 Pin Assignments and Signal Descriptions....................................................................7
2.0
Functional Description................................................................................................................ 14
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3.0
Introduction ......................................................................................................................... 14
External Interfaces .............................................................................................................. 14
2.2.1 10BASE-T Ports .................................................................................................... 14
2.2.2 AUI Port ................................................................................................................. 14
2.2.3 Serial Port .............................................................................................................. 14
2.2.4 Inter-Repeater Backplane ...................................................................................... 15
2.2.4.1 Synchronous IRB Operation ..................................................................15
2.2.4.2 Asynchronous IRB Operation ................................................................ 15
Internal Repeater Circuitry .................................................................................................. 15
Initialization ......................................................................................................................... 16
2.4.1 Local Management Mode Initialization ..................................................................16
2.4.2 External Management Mode Initialization .............................................................. 19
10BASE-T Port Operation .................................................................................................. 20
2.5.1 10BASE-T Reception............................................................................................. 20
2.5.1.1 Programmable Internal Squelch Level................................................... 21
2.5.1.2 Polarity Detection and Correction .......................................................... 21
2.5.2 10BASE-T Transmission ....................................................................................... 21
2.5.3 10BASE-T Link Integrity Testing............................................................................ 21
AUI Port Operation ............................................................................................................. 22
2.6.1 AUI Reception........................................................................................................22
2.6.2 AUI Transmission .................................................................................................. 22
2.6.3 AUI Mode Selection (DTE/MAU)............................................................................ 22
Collision Handling ...............................................................................................................23
Security Mode ..................................................................................................................... 23
LED Display ........................................................................................................................ 23
Application Information .............................................................................................................. 27
3.1
3.2
3.3
Layout Requirements.......................................................................................................... 27
3.1.1 The Twisted Pair Interface .....................................................................................27
3.1.2 The RBIAS Pin....................................................................................................... 27
12-Port Hub Repeater......................................................................................................... 27
8-Port Print or File Server ................................................................................................... 28
4.0
Test Specifications ......................................................................................................................35
5.0
Package Specifications...............................................................................................................40
5.1
6.0
Top-Label Marking .............................................................................................................. 42
Product Ordering Information .................................................................................................... 44
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
3
Intel® LXT914 Flexible Quad Ethernet Repeater
Figures
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Block Diagram .............................................................................................................................. 7
Pin Assignments ........................................................................................................................... 8
Global State Machine ................................................................................................................. 17
Partitioning State Machine.......................................................................................................... 18
Integrated LED Driver Indications............................................................................................... 26
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 1 of 4)....................................... 29
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 2 of 4)....................................... 30
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 3 of 4)....................................... 31
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 4 of 4)....................................... 32
8-Port Application Schematic, LED Mode 1 with AUISEL = MAU (Sheet 1 of 2) ....................... 33
8-Port Application Schematic, LED Mode 1 with AUISEL = MAU (Sheet 2 of 2) ....................... 34
Serial Port Timing ....................................................................................................................... 38
Inter-Repeater Bus Timing ......................................................................................................... 39
LXT914PC/PE Package Specifications ...................................................................................... 40
LXT914QC Package Specifications ........................................................................................... 41
Sample PLCC Package - Intel® LXT914 Repeater .................................................................... 42
Sample Pb-Free (RoHS-Compliant) PLCC Package - Intel® LXT914 Repeater ........................ 42
Sample PQFP Package - Intel® LXT914 Repeater .................................................................... 43
Sample Pb-Free (RoHS-Compliant) PQFP Package - Intel® LXT914 Repeater ........................ 43
Ordering Information Matrix – Sample........................................................................................ 45
Tables
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Power, Ground, and Clock Signal Descriptions............................................................................ 9
Inter-Repeater Backplane Signal Descriptions ........................................................................... 10
Mode Select and Control Signal Descriptions ............................................................................ 10
Serial Port Signal Descriptions (External Management Mode) .................................................. 11
Serial Port Signal Descriptions (Local Management Mode) ....................................................... 11
Miscellaneous Control Signal Descriptions ................................................................................ 12
LED Driver Signal Descriptions .................................................................................................. 12
Repeater Port Signal Descriptions ............................................................................................. 13
Setup Register Bit Assignments ................................................................................................. 19
Setup Register Bit Definitions ..................................................................................................... 19
Packet Status Register Bit Assignments .................................................................................... 20
Packet Status Register Bit Definitions ........................................................................................ 20
AUI Mode Selection (DTE/MAU) ................................................................................................ 22
LED Mode Selection ................................................................................................................... 24
Mode 0 (Default) LED Truth Table ............................................................................................. 24
Mode 1 LED Truth Table ............................................................................................................ 24
Mode 2 LED Truth Table ............................................................................................................ 25
Mode 3 LED Truth Table ............................................................................................................ 25
Manufacturers Magnetics List..................................................................................................... 28
Absolute Maximum Ratings ........................................................................................................ 35
Recommended Operating Conditions ........................................................................................ 35
I/O Electrical Characteristics1 ..................................................................................................... 35
AUI Electrical Characteristics ..................................................................................................... 36
Twisted-Pair Electrical Characteristics ....................................................................................... 36
IRB Electrical Characteristics ..................................................................................................... 37
31-Oct-2005
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Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
26
27
28
29
Switching Characteristics............................................................................................................ 37
Serial Port Timing—External Mode ............................................................................................37
Inter-Repeater Bus Timing.......................................................................................................... 38
Product Ordering Information ..................................................................................................... 44
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
5
Intel® LXT914 Flexible Quad Ethernet Repeater
Revision History
Date
Revision
31-Oct-2005
003
Feb 2001
002
Description
• Added Section 5.1 and Figure 16 through Figure 19 (RoHS top labels).
• Added Section 6.0, “Product Ordering Information” on page 44 with Table 29 “Product Ordering
Information” on page 44 and Figure 20 “Ordering Information Matrix – Sample” on page 45.
• Added Layout Requirements section under Application Information.
31-Oct-2005
6
• Modified I/O Electrical Characteristics table: Change Max value under Supply Current from 180
to 240; Add text under Test Conditions: “100 test load, no LEDs”; add table note 3.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
1.0
LXT914 Pin Assignments and Signal Descriptions
Figure 1.
Block Diagram
FPS/SECAUI
LOC/EXT
A/SYNC
DOP
DON
DIP
DIN
DO/DI
DO/DI
DO/DI
DOP
DON
DIP
DIN
CIP
CIN
AUISEL*
Datasheet
4
4
4
Filter
RESET
SYSCLK
Twisted-Pair
Port #1
F
TP Port #2
F
F
TP Port #3
TP Port #4
Control
Management Port
(Serial I/F)
Repeater
(State Machine, Timing
Recovery, FIFO, etc.)
Inter-Repeater
Backplane Port
* The AUI Select function is provided on a dedicated
AUISEL pin in the 100-pin PQFP (LXT914QC). In the
68-pin PLCC (LXT914PC/PE) the AUI Select function is
provided through shared usage of the JM LED pin.
LED Drivers
AUI Port
(Mode selectable
DTE/MAU)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
SENI
SENO
SDI
SDO
SCLK
IRENA
IRDEN
IRCFS
IRCOL
IRDAT
BCLKIO
4
TP1 - 4
AUI
CF
JM
31-Oct-2005
7
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 2.
Pin Assignments
Rev #
Part #
LXT914PC/PE XX
FPO #
XXXXXXXX
BSMC
B5381-01
Part #
FPO #
Rev #
XXXXXXXX
BSMC
B5382-01
31-Oct-2005
8
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 1.
Power, Ground, and Clock Signal Descriptions
Pin #
Datasheet
Symbol
I/O
27
VCC1
—
61
VCC2
—
3
62
VCC3
—
26
69
VCC4
—
49
70
VCC5
—
55
88
VCC6
—
67
89
VCC7
—
68
90
VCC8
—
—
91
VCC9
—
—
93
VCC10
—
PLCC
PQFP
1
2
Description
Power Supply Inputs. These pins each require a +5 VDC power supply.
The various pins may be supplied from a single power source, but special
de-coupling requirements may apply. Each VCC input must be within ±0.3
V of every other VCC input.
9
39
GND1
—
34
41
GND2
—
36
43
GND3
—
38
44
GND4
—
39
58
GND5
—
46
65
GND6
—
52
66
GND7
—
58
73
GND8
—
—
99
GND9
—
37
42
RBIAS
—
Bias. This pin provides bias current for the internal circuitry. The 100 µA
bias current is provided through an external 12.4 kΩ resistor to ground.
Backplane Clock. This 10 MHz clock synchronizes multiple repeaters on a
common backplane. In the synchronous mode, BCLKIO must be supplied
to all repeaters from a common external source. In the asynchronous
mode, BCLKIO is supplied only when a repeater is outputting data to the
bus. Each repeater outputs its internally recovered clock when it takes
control of the bus. Other repeaters on the backplane then sync to BCLKIO
for the duration of the transmission.
10
4
BCLKIO
I/O
11
6
SYSCLK
I
Ground. These pins provide ground return paths for the various power
supply pins.
System Clock. The required 20 MHz system clock is input at this pin.
Clock must have a 40-60 duty cycle with < 10 ns rise time.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
9
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 2.
Inter-Repeater Backplane Signal Descriptions
PLCC
PQFP
Symbol
I/O
Description
4
94
IRENA
I/O
Inter-Repeater Backplane Enable. This pin allows individual LXT914
repeaters to take control of the Inter-Repeater Backplane (IRB) data bus
(IRDAT). The IRENA bus must be pulled up locally by a 330 Ω resistor.1
5
95
IRDAT
I/O
IRB Data. This pin is used to pass data between multiple repeaters on the
IRB. The IRDAT bus must be pulled up locally by a 330 Ω resistor.1
6
96
IRDEN
O
IRB Driver Enable. The IRDEN pin is used to enable external bus drivers
which may be required in synchronous systems with large backplanes. This
is an active Low signal, maintained for the duration of the data
transmission. IRDEN must be pulled up locally by a 330 Ω resistor.
7
97
IRCFS
I/O
8
98
IRCOL
I/O
IRB Collision Flag Sense (IRCFS) and IRB Collision (IRCOL). These two
pins are used for collision signalling between multiple LXT914 devices on
the Inter-Repeater Backplane (IRB). Both the IRCFS bus and the IRCOL
bus must be pulled up globally with 330 Ω resistors. (IRCFS requires a
precision resistor [±1%].)2
NOTES:
1. IRENA and IRDAT can be buffered between boards in multi-board configurations. Where buffering is used,
a 330 Ω pull-up resistor can be used on each signal, on each board. Where no buffering is used, the total
impedance should be no less than 330 Ω.
2. IRCFS and IRCOL cannot be buffered. In multi-board configurations, the total impedance on IRCOL should
be no smaller than 330 Ω. IRCFS should be pulled up only once, by a single 330 Ω, 1% resistor.
Table 3.
Mode Select and Control Signal Descriptions
PLCC
12
13
31-Oct-2005
10
PQFP
8
Symbol
A/SYNC
I/O
Description
I
Backplane Sync Mode Select. This pin selects the backplane sync mode.
When this pin is left floating an internal pull-up defaults to the
Asynchronous mode (A/SYNC High). In the asynchronous mode 12 or
more LXT914s can be connected on the backplane, and an external 10
MHz backplane clock source is not required. When the synchronous mode
is selected (A/SYNC tied Low), 32 or more LXT914s can be connected to
the backplane and an external 10 MHz backplane clock source is required.
I
Management Mode Select. This pin selects the management mode. When
this pin is left floating, an internal pull-up defaults to the Local management
mode (LOC/EXT High). In the Local mode, setup parameters are
downloaded from an EEPROM during initialization. Once initialized with the
setup parameters, the repeater functions independently.
9
LOC/EXT
28
33
LEDJM/
AUISEL
I/O
LED Driver or DTE/MAU Select. At reset, this pin selects the mode of the
AUI port. If left floating, an internal pull-down device forces the AUI port to
DTE mode. If pulled High with an external resistor, the port changes to a
MAU, in which case the functions of the LEDJM pin are disabled and the
default LED mode (Refer to Table 7) is not available.
—
30
AUISEL
I
DTE/MAU Select. This pin changes the mode of the AUI port independent
of the condition at reset. This function is available only in the 100-pin PQFP
package.
17
14
35
40
LEDM0
I/O
LEDM1
I/O
LED Mode 0 & 1 Select. These two pins select one of four possible LED
modes of operation. The Functional Description section describes the four
modes.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 4.
Serial Port Signal Descriptions (External Management Mode)
PLCC
14
Table 5.
PQFP
11
Symbol
SENI
Description
I
Serial Enable Input. This active Low input is used to access the LXT914
serial interface. To write to the serial input (SDI), an External Management
Device (EMD) must drive this pin from High to Low. The input must be
asserted Low concurrent with the appearance of data on SDI and remain
Low for the duration of the serial input transaction.
15
12
SENO
O
Serial Enable Output. This active Low output is used to access the serial
interface of an EMD. When the LXT914 sends a data stream to the EMD
through the serial port (SDO), this output transitions from High to Low and
remains Low for the duration of the serial transmission.
16
13
SDI
I
Serial Data Input. This pin is the input for the EMD serial interface. Setup
and operating parameters are supplied to the LXT914 in a serial data
stream through this port when operating in the External Management
Mode.
17
14
SDO
I/O
Serial Data Output. After each packet transmission or interrupt event, the
LXT914 reports status information to the EMD in a serial data stream
through this port.
18
16
SCLK
I
Serial Clock. This 10 MHz clock synchronizes the serial interface between
the LXT914 and the EMD. Both devices must be supplied from the same
clock source. In synchronous mode, SCLK and BCLK may be tied together.
Serial Port Signal Descriptions (Local Management Mode)
PLCC
PQFP
Symbol
CS
14
I/O
Description
O
Chip Select. The LXT914 is designed for use with an EEPROM or similar
device which may be used to store setup parameters and serially download
them to the LXT914 during initialization. In a single-device application or in
the first device of a daisy chain application, this pin is an active High Chip
Select output used to enable the EEPROM.
I
Serial Enable Input. In subsequent devices of a daisy-chain configuration,
a High-to-Low transition on this pin enables the serial input port (SDI). The
input must be asserted concurrent with the appearance of data on SDI and
remain Low for the duration of the serial input transaction.
11
SENI
Datasheet
I/O
15
12
SENO
O
Serial Enable Output. During initialization, the LXT914 accepts 48 bits of
setup data through the SDI port. After the 48th bit, the LXT914 asserts this
pin Low. When multiple LXT914 devices are connected in a daisy-chain,
this output is tied to the SENI input of the next device in the chain. Thus
each device in the chain is serially enabled by the previous device until all
the devices have read in their 48 bits of setup data.
16
13
SDI
I
Setup Data Input. This pin is the serial input port for the setup parameters
(48 bits).This pin should be tied Low if no EEPROM is present.
17
14
RTS
I/O
Request To Send. In a single-device application or in the first device of a
daisy chain application, this pin outputs a 9-bit, active High sequence. This
pin must be tied to the EEPROM DI input to trigger the EEPROM to
download its stored data. In subsequent devices this pin is not used.
18
16
SCLKIO
I/O
Serial Clock. A 1 MHz clock provided by the first LXT914 in the chain to all
subsequent repeaters and the EEPROM. In the Local mode all repeaters
have their SCLKIO pins tied together.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
11
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 6.
Miscellaneous Control Signal Descriptions
PLCC
PQFP
19
20
21
22
23
24
25
Table 7.
27
18
TEST
I
Test Mode Select. This pin must be tied Low for normal operation.
19
RESET
I
RESET. This pin resets the LXT914 circuitry when pulled High for ≥ 1 ms.
DSQE
(Local)
I
DSQE. In Local Mode, this pin controls the SQE function. When High, the
SQE function of the AUI port is disabled. When Low, SQE is enabled.
SECTP1
(External)
I
Security Mode Select (TP Port 1). In External Mode, this pin enables the
security mode for twisted-pair port 1. When pulled High, the LXT914 Jams
the port. This pin must be tied Low if external security control is not
required.
SECTP2
SECTP3
SECTP4
(External)
I
I
I
Security Mode Select (TP Ports 2–4). In External Mode, these pins
enable the security mode for the respective twisted-pair ports (TP1 through
TP4). When pulled High, the LXT914 jams the affected port. The SEC pins
must be tied Low if external security control is not required.
FPS
(Local)
I
First Position Select. In the Local mode this pin identifies the first device
in a daisy chain configuration. When tied High (First position), the LXT914
controls the local EEPROM by providing clock and handshaking. When tied
Low (Not First), the LXT914 will accept CLK and data in its turn from
previous LXT914s in the data chain.
SECAUI
(External)
I
Security Mode Select (AUI Port). In the External mode this pin enables
the security mode for the AUI port. When pulled High, the LXT914 jams the
AUI port. The security feature is available only in External management
mode.
21
22
23
24
25
PQFP
32
Symbol
Description
LEDCF
I/O
Description
O
Collision & FIFO Error LED Driver. This tri-state LED driver pin reports
collisions and FIFO errors. It pulses Low to report collisions, and pulses
High to report FIFO errors. When this pin is connected to the anode of one
LED and to the cathode of a second LED, the LXT914 will simultaneously
monitor and report both conditions independently.
Jabber/MJLP & Manchester Code Violation LED Driver. This tri-state
LED driver pin reports jabber and code violations. It pulses Low to report
MAU Jabber Lockup Protection (MJLP), and pulses High to report
Manchester code violations. When this pin is connected to the anode of
one LED and to the cathode of a second LED, the LXT914 will
simultaneously monitor and report both conditions independently.
28
33
LEDJM
O
29
34
LEDTP1
O
30
35
LEDTP2
O
31
36
LEDTP3
O
32
37
LEDTP4
O
33
12
I/O
LED Driver Signal Descriptions
PLCC
31-Oct-2005
Symbol
38
LEDAUI
O
Twisted-Pair Port LED Drivers. These tri-state LED drivers use an
alternating pulsed output to report TP port status. Each pin should be tied to
a pair of LEDs (to the anode of one LED and the cathode of a second LED).
When connected this way, each pin reports five separate conditions
(receive, transmit, link integrity, reverse polarity and auto partition).
AUI Port LED Driver. This tri-state LED driver uses an alternating pulsed
output to report AUI port status. This pin should be tied to a pair of LEDs (to
the anode of one LED and the cathode of a second LED). When connected
this way, this pin reports five separate conditions (receive, transmit, receive
jabber, receive collision and auto partition.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 8.
Datasheet
Repeater Port Signal Descriptions
PLCC
PQFP
Symbol
I/O
40
41
46
AUIDOP
O
47
AUIDON
O
42
48
AUIDIP
I
43
49
AUIDIN
I
44
54
AUICIP
I/O
45
55
AUICIN
I/O
56
57
71
72
TPDOP1
TPDON1
O
O
54
53
68
67
TPDOP2
TPDON2
O
O
50
51
63
64
TPDOP3
TPDON3
O
O
48
47
60
59
TPDOP4
TPDON4
O
O
66
65
87
86
TPDIP1
TPDIN1
I
I
64
63
85
84
TPDIP2
TPDIN2
I
I
62
61
83
82
TPDIP3
TPDIN3
I
I
60
59
77
76
TPDIP4
TPDIN4
I
I
Description
AUI Data Outputs (Positive and Negative). These pins are the positive
and negative data outputs for the AUI Port. In MAU Mode these pins are
connected to the DI pins of the DTE.
AUI Data Input (Positive and Negative). These pins are the positive and
negative data inputs for the AUI Port. In MAU Mode, these pins are
connected to the DO pins of the DTE.
AUI Collision (Positive and Negative). These pins are the positive and
negative Collision inputs for the AUI Port in DTE Mode. In MAU Mode,
these pins output a collision indication to the DTE.
Twisted-Pair Data Outputs (Positive and Negative). These pins are the
positive (TPDOP1-4) and negative (TPDON1-4) outputs to the network
from the respective twisted-pair ports.
Twisted-Pair Data Inputs (Positive and Negative). These pins are the
positive (TPDIP1-4) and negative (TPDIN1-4) inputs from the network to
the respective twisted-pair ports.
Intel® LXT914 Flexible Quad Ethernet Repeater
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Intel® LXT914 Flexible Quad Ethernet Repeater
2.0
Functional Description
2.1
Introduction
The LXT914 Repeater is an integrated hub repeater for 10BASE-T networks. The hub repeater is
the central point for information transfer across the network. The LXT914 Repeater offers multiple
operating modes to suit a broad range of applications ranging from simple 4-port stand-alone hubs
or attachments for print and file servers, up to intelligent 128-port enterprise systems with
microprocessor/gate arLXT914 Repeater ray management.
The main functions of the LXT914 Repeater hub repeater are data recovery and re-transmission
and collision propagation. Data packets received at the AUI or 10BASE-T ports are detected and
recovered by the port receivers before being passed to the repeater core circuitry for re-timing and
re-transmission. Data packets received through the IRB port are essentially passed directly to the
core for retransmission. After recovery of a valid data packet, the repeater broadcasts it to all
enabled stations, except the originator station.
2.2
External Interfaces
The LXT914 Repeater includes four 10BASE-T ports with internal filters. The LXT914 Repeater
also includes an Attachment Unit Interface (AUI) port, a serial port and an Inter-Repeater
Backplane (IRB) port. The serial port allows an external device such as an EEPROM to download
setup parameters to the repeater. In more complex designs the serial port can also be used to
monitor repeater status. The IRB port enables multiple LXT914 Repeater devices to be cascaded,
creating a large, multi-port repeater.
2.2.1
10BASE-T Ports
The four 10BASE-T transceiver ports are completely self-contained. Since the transmitters and
receivers include the required filtering, only simple, inexpensive transformers are required to
complete the 10BASE-T interface. Each individual Twisted-Pair (TP) port is implemented in
accordance with the IEEE 802.3 10BASE-T standard.
2.2.2
AUI Port
The AUI port mode is selectable (DTE mode or MAU mode). With DTE mode selected, the AUI
port allows connection of an external transceiver (10BASE2, 10BASE5, 10BASE-T or FOIRL) or
a drop cable. With MAU mode selected, the AUI port establishes a MAU output allowing direct
connection to another DTE interface.
2.2.3
Serial Port
The serial port provides the management interface to the LXT914 Repeater. Refer to Test
Specifications for serial port timing. The serial port can be either unidirectional or bidirectional,
depending on the management mode selected. In the Local management mode the serial port is
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Intel® LXT914 Flexible Quad Ethernet Repeater
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Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
unidirectional (input only), and is used only to download setup parameters during initialization.
The Local mode is intended for use with a simple EEPROM, but the serial port may be tied Low if
an EEPROM is not required.
In the External management mode, the serial port is bi-directional (input for setup parameters,
output for status reports). The External mode is intended for use with an External Management
Device (EMD) and a Media Access Controller (MAC). The EMD (typically a gate array)
communicates with a microprocessor (e.g., Intel 8051) and can control up to three LXT914
Repeaters. This simplifies design of a relatively standard 12-port repeater on a single printed circuit
board.
2.2.4
Inter-Repeater Backplane
The Inter-Repeater Backplane (IRB) allows several LXT914 Repeaters to function as a single
repeater. Refer to Test Specifications for IRB timing. The IRB also allows several multi-repeater
boards to be integrated in a standard rack and to function as a single unit. The IRB supports “hot
swapping” for easy maintenance and troubleshooting. Each individual repeater distributes
recovered and re-timed data to other repeaters on the IRB for broadcast on all ports simultaneously.
This simultaneous rebroadcast allows the multi-repeater system to act as a single large repeater
unit. The maximum number of repeaters on the IRB is limited by bus loading factors such as
parasitic capacitance. The IRB can be operated synchronously or asynchronously.
2.2.4.1
Synchronous IRB Operation
In the synchronous mode, a common external source provides the 10 MHz backplane clock
(BCLKIO) and the 20 MHz system clock (SYSCLK) to all repeaters. BCLKIO must be
synchronous to SYSCLK and may be derived from SYSCLK using a divide-by-two circuit. In the
synchronous mode 32 or more LXT914 Repeaters may be connected on the IRB, providing 128
10BASE-T ports and 32 AUI ports.
2.2.4.2
Asynchronous IRB Operation
In the asynchronous mode an external BCLKIO source is not required. The repeaters run
independently until one takes control of the IRB. The transmitting repeater then outputs its own 10
MHz clock onto the BCLKIO line. All other repeaters sync to that clock for the duration of the
transmission. In the asynchronous mode 12 or more LXT914 Repeater may be connected to the
IRB, providing 48 10BASE-T ports and 12 AUI ports.
The maximum number of repeaters which may be linked on the backplane is limited by board
design factors. The numbers listed above are engineering estimates only. Stronger drivers and
reduced capacitive loading in PCB layout may allow an increased device count.
2.3
Internal Repeater Circuitry
The basic repeater circuitry is shared among all the ports within the LXT914 Repeater. It consists
of a global repeater state machine, several timers and counters and the timing recovery circuit. The
timing recovery circuit includes a FIFO for re-timing and recovery of the clock which is used to
clock the receive data out onto the IRB.
Datasheet
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Intel® LXT914 Flexible Quad Ethernet Repeater
The shared functional blocks of the LXT914 Repeater are controlled by the global state machine
(Figure 3). This diagram and all associated notations used are in strict accordance with section 9.6
of the IEEE 802.3 standard.
The LXT914 Repeater also implements the Partition State Diagram as defined by the IEEE 802.3
standard and shown in Figure 4. The value of CCLimit as implemented in the LXT914 Repeater is
64.
The CCLimit value sets the number of consecutive collisions that must occur before the port is
subjected to automatic partitioning. Auto-partition/re-connection is also supported by the
LXT914 Repeater with Tw5 conforming to the standard requirement of 450 to 560 bit times.
2.4
Initialization
The following description applies to the initial power-on reset and to any subsequent hardware
reset. When a reset occurs (RESET pin pulled High for > 1 ms), the device senses the levels at the
various control pins (see Figure 3) to determine the correct operating modes for Management,
LEDs, and the AUI port functions.
2.4.1
Local Management Mode Initialization
An internal pull-up causes the LXT914 Repeater to default to the Local management mode unless
the LOC/EXT pin is tied Low. In the Local mode the serial port is a unidirectional interface used
only to download setup parameters from an external device.
In a Locally managed multiple-repeater (daisy chain) configuration, the first repeater in the chain
performs special functions. The First Position Select (FPS) pin is used to establish position (FPS
High = First, FPS Low = Not First). After establishing the Hardware mode, each LXT914 Repeater
monitors the FPS pin to determine its position.
If FPS is High (First Position), the repeater performs the following functions:
Outputs a 1 MHz Serial Clock (SCLK). SCLK is derived from the 20 MHz SYSCLK input in
ASYNC mode and from BCLKIO in SYNC mode; it is supplied to the SCLK inputs of all other
repeaters on the bus and to the EEPROM.
Asserts Chip Select (CS) High to enable the EEPROM.
Outputs a serial 9-bit request-to-send (RTS) strobe. The programmable device responds to the RTS
strobe with a serial data stream containing the setup parameters for all repeaters in the chain.
Clocks the first 48 serial data input (SDI) bits from the EEPROM into its setup register. Refer to
Table 9 and Table 10 for Setup Register bit assignments.
Asserts Serial Enable Output (SENO) Low to enable the next repeater in line.
The second repeater has FPS tied Low and Serial Enable Input (SENI) connected to the Serial
Enable Output (SENO) of the first repeater. When enabled by a Low on SENI, each repeater
downloads its portion of the stream, then stops accepting data and asserts SENO Low. The SENO
pin is linked to the SENI input of the next repeater. This enables the next repeater to clock in its 48bit word and so on.
If FPS is Low (Not First Position), the repeater performs the following functions:
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Intel® LXT914 Flexible Quad Ethernet Repeater
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Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
1. Syncs to the 1 MHz Serial Clock (SCLK) input. SCLK is supplied by the First Position
repeater.
2. Responds to SENI Low by enabling the SDI port.
3. Clocks 48 bits from the EEPROM into its setup register through the SDI port.
4. Asserts SENO Low to enable the next repeater in line.
Figure 3.
Global State Machine
Power On
START
Begin
UCT
IDLE
Out (ALL) = Idle
Collin(ANY) = SQE[N Port(Collin = SQE)]
Datain(ANY) = II * Collin(ALL) = SQE:[N Port(Datain = II)]
SEND PREAMBLE PATTERN
Out (ALLXN) = Preamble Pattern
Collin(ANYXN) = SQE
Collin(N) = SQE + Datain(N) = II * Collin(ALL) = SQE
TT(ALLXN) 62 * DataRdy * Collin(ALL) = SQE * Datain(N) = II
SEND TWO ONES
Out (ALLXN) = TwoOnes
Collin(ANYXN) = SQE
Collin(N) = SQE + Datain = II * Collin(ALL) = SQE
TwoOnesSent * Collin(ALL) = SQE * Datain(N) = II
SEND DATA
Out (ALLXN) = Data
Collin(N) = SQE + Datain(N) = II *
Collin(ALL) = SQE *
AllDataSent * TT(ANAYXN) < 96
Collin(ANYXN) = SQE
TRANSMIT COLLISION
RECEIVE COLLISION
Out (All) = Jam
Out (ALLXN) = Jam
Collin(ALL) = SQE * TT(ALL) 96 * Tw2Done
Collin(ONLY1) = SQE *
TT(ALL) 96:[M Port(Collin = SQE)]
Collin(ANYXN) = SQE
Datain(N) = II *
Collin(ALL) = SQE *
TT(ALLXN) 96 *
AllDataSent
Datain(N) = II *
Collin(ALL) = SQE *
TT(ALLXN) 96 *
Tw2Done
ONE PORT LEFT
Out (ALLXM) = Jam
Collin(ANYXM) = SQE
Datain(M) = II*
Collin(ALL) = SQE*
Tw2Done
WAIT
StartTw1
Out(ALL) = Idle
Collin(ANY) = SQE + Tw1Done
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
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Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 4.
Partitioning State Machine
Begin
COUNT CLEAR
CC(X) = 0
Datain(X) = DIPresent(X)
Collin(X) = CIPresent(X)
DIPresent(X) = II *
CIPresent(X) = SQE
COLLISION COUNT IDLE
Datain(X) = DIPresent(X)
Collin(X) = CIPresent(X)
PARTITION WAIT
DIPresent(X) = II + CIPresent(X) = SQE
Datain(X) = II
Collin(X) = SQE
WATCH FOR
COLLISION
StartTw5
Datain(X) = DIPresent(X)
DIPresent(X) = II *CIPresent(X) = SQE
Collin(X) = CIPresent(X)
PARTITION HOLD
Datain(X) = II
Collin(X) = SQE
DIPresent(X) = II *
CIPresent(X) = SQE
CIPresent(X) = SQE
Tw5Done * DIPresent(X) = II *
CIPresent(X) = SQE
DIPresent(X) = II + CIPresent(X) = SQE
COLLSION COUNT
INCREMENT
PARTITION COLLISION
WATCH
CC(X) = CC(X) + 1
Datain(X) = DIPresent(X)
Datain(X) = II
Collin(X) = SQE
Collin(X) = CIPresent(X)
StartTw6
StartTw5
CIPresent(X) =
SQE
DIPresent(X) = II
CIPresent = SQE
CC(X) ≥
CCLimit + (Tw6Done *
CIPresent(X) = SQE)
DIPresent(X) = II *
CIPresent(X) = SQE *
CC(X) < CCLimit *
Tw6Done
Tw5Done * DIPresent(X) = II *
CIPresent(X) = SQE
WAIT TO RESTORE
PORT
Datain(X) = II
Collin(X) = SQE
CC(X) = 0
DIPresent(X) = II * CIPresent (X) = SQE
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Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 9.
Setup Register Bit Assignments
Register
D7
D6
D5
D4
D3
D2
D1
D0
SR(0)
DISLI3
DISLI2
DISLI1
DISAP4
DISAP3
DISAP2
DISAP1
DISAPA
SR(1)
DISTX2
DISTX1
DISTXA
DPRC4
DPRC3
DPRC2
DPRC1
DISLI4
SR(2)
ERSQ1
DISRX4
DISRX3
DISRX2
DISRX1
DISRXA
DISTX4
DISTX3
SR(3)
DFIFOE
DPFRM
DSQE
DMCV
ERXJAB
ERSQ4
ERSQ3
ERSQ2
SR(4)
RES
RES
RES
RES
RES
RES
RES
RES
SR(5)
RES
RES
RES
RES
RES
RES
RES
RES
Table 10. Setup Register Bit Definitions
Bit
DISAPx
1 = Disable Auto-Partitioning on Port x
DISLIx
1 = Disable Link Integrity on Port x (Twisted-pair ports only)
DPRCx
1 = Disable Polarity Reverse detection and Correction on Port x (Twisted-pair ports only)
DISTXx
1 = Disable Transmit on Port x
DISRXx
1 = Disable Receive on Port x
ERSQx
1 = Enable Reduced Squelch on Port x (Twisted-pair ports only)
ERXJAB
1 = Enable Receive JAB (Long Packet) (Global)
DMCV
1 = Disable entering Tx Collision state on reception of Manchester Code Violation
DSQE
1 = Disable Signal Quality Error to provide heartbeat (AUI port only)
DPFRM
1 = Disable End-of-Frame checking for polarity correction (Global)
DFIFOE
1 = Disable entering Tx Collision state on FIFO over/underflow condition (Global)
DMJLP
RES
2.4.2
Definition
1 = Disable MJLP counter (Global)
Reserved. Must be set to 0.
External Management Mode Initialization
The LXT914 Repeater operates in the External management mode when the LOC/EXT pin is tied
Low. In the External mode, the serial port is a bidirectional interface between the
LXT914 Repeater and an external management device (EMD). The serial port is used to download
initial setup parameters to the repeater and to monitor status reports from the repeater. The
LXT914 Repeater setup parameters can be changed at any time by the EMD. The initialization
process for each repeater in a managed mode configuration is the same, regardless of its position;
each repeater is connected directly to the EMD. Each LXT914 Repeater initializes as follows:
1. Syncs to the 10 MHz Serial Clock (SCLK) input. SCLK must be supplied from an external
source.
2. Responds to SENI Low by enabling the SDI port.
3. Clocks 48 bits from the EMD into its setup register through the SDI port.
4. Once initialized, the LXT914 Repeater reports its status in a 48-bit serial stream after every
packet transmission or interrupt event. Refer to Table 11 and Table 12 for packet status register
bit assignments and definitions.
Datasheet
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Intel® LXT914 Flexible Quad Ethernet Repeater
Table 11. Packet Status Register Bit Assignments
Register
D7
D6
D5
D4
D3
D2
D1
D0
PSR(0)
COL2
COL1
COLA
RX4
RX3
RX2
RX1
RXA
PSR(1)
PR2
PR1
LLS4
LLS3
LLS2
LLS1
COL4
COL3
PSR(2)
SPA
AP4
AP3
AP2
AP1
APA
PR4
PR3
PSR(3)
LP3
LP2
LP1
LPA
SP4
SP3
SP2
SP1
PSR(4)
RXJABA
MJLP
LCOL4
LCOL3
LCOL2
LCOL1
LCOLA
LP4
PSR(5)
RES
RXCOL
MANCV
FIFOER
RXJAB4
RXJAB3
RXJAB2
RXJAB1
Table 12. Packet Status Register Bit Definitions
Bit1
Definition
RXx
Received Packet on Twisted-Pair Port 1-4 or on AUI Port
COLx
Transmit Collision of Twisted -Pair Port 1-4 or on AUI Port
LLSCx
Link Loss State on Twisted-Pair Port 1-4 or on AUI Port
PRx
Polarity reversed on Twisted-Pair Port 1-4 or on AUI Port
APx
Auto-Partition circuit isolated Twisted-Pair Port 1-4 or the AUI Port
SPx
Short Packet (less than 74 bits) on Twisted-Pair Port 1-4 or on AUI Port
LPx
Long Packet (more than 1.3 ms) on Twisted-Pair Port 1-4 or on AUI Port
LCOLx
Late Collision on Twisted-Pair Port 1-4 or on AUI Port
MJLP
MAU Jabber Lockup Protection
RXJABx
Receive Jabber Lockup Protection
FIFOER
FIFO overflow/underflow
MANCV
Manchester Code Violation
RXCOL
Receive Collision on the AUI Port
RES
Note:
1.
Reserved. Not used
The notation ABCDx means bit ABCD associated with port x, which can be any of the four TwistedPair Ports or the AUI Port.
2.5
10BASE-T Port Operation
2.5.1
10BASE-T Reception
Each LXT914 Repeater 10BASE-T port receiver acquires data packets from its twisted-pair input
(TPDIP/TPDIN). An internal RC filter and an intelligent squelch function discriminate noise from
link test pulses and valid data streams. The receive function is activated only by valid data streams
(above the squelch level and with proper timing). If the differential signal at the DI circuit inputs
falls below 75% of the threshold level (unsquelched) for eight bit times (typical), the port receiver
enters the idle state.
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Intel® LXT914 Flexible Quad Ethernet Repeater
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Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
2.5.1.1
Programmable Internal Squelch Level
The 10BASE-T port receivers have two squelch levels: a normal level or default setting and a
reduced level squelch (-4.5 dB) selected when the ERSQx is set in the Setup register. When used
with Low noise media such as shielded twisted-pair cabling, the reduced squelch level allows
longer loop lengths in the network.
2.5.1.2
Polarity Detection and Correction
The LXT914 Repeater 10BASE-T ports detect and correct for reversed polarity by monitoring link
pulses and end-of-frame sequences. A reversed polarity condition is declared when the port
receives sixteen or more incorrect link pulses consecutively, or four frames with reversed start-ofidle sequence. In these cases the receiver reverses the polarity of the signal and thereby corrects for
this failure condition. If the port enters the link fail state and no valid data or link pulses are
received within 96 to 128 ms, the polarity is reset to the default non-flipped condition. (If Link
Integrity Testing is disabled, polarity detection is based only on received data.)
2.5.2
10BASE-T Transmission
Each LXT914 Repeater 10BASE-T port receives NRZ data from the repeater core and passes it
through a Manchester encoder. The encoded data is then transmitted to the twisted-pair network
(the DO circuit). The advanced integrated pulse shaping and filtering network produces the predistorted and pre-filtered output signal to meet the 10BASE-T jitter template. An internal
continuous resistor-capacitor filter is used to remove any high-frequency clocking noise from the
pulse shaping circuitry. Integrated filters simplify the design work required for FCC compliant
EMI performance. During idle periods, the LXT914 Repeater 10BASE-T ports transmit link
integrity test pulses in accordance with the 802.3 10BASE-T standard.
Data packets transmitted by the LXT914 Repeater contain a minimum of 56 preamble bits before
the start of frame delimiter (SFD). In the Asynchronous mode, preamble regeneration takes place
on the transmit side. In the Synchronous mode, the preamble is regenerated on the receive side and
distributed via the IRB. If the total packet is less than 96 bits including the preamble, the
LXT914 Repeater extends the packet length to 96 bits by appending a Jam signal (1010...) at the
end.
2.5.3
10BASE-T Link Integrity Testing
The LXT914 Repeater fully supports the 10BASE-T Link Integrity test function. The link integrity
test determines the status of the receive side twisted-pair cable. Link integrity testing is enabled
unless disabled via the DISLIx bit in the Setup register. When enabled, the receiver recognizes link
integrity pulses transmitted in the absence of data traffic. With no data packets or link integrity
pulses within 100 (±50) ms, the port enters a link fail state and disables its transmitter. The port
remains in the link fail state until it detects three or more data packets or link integrity pulses.
Datasheet
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Intel® LXT914 Flexible Quad Ethernet Repeater
2.6
AUI Port Operation
2.6.1
AUI Reception
The LXT914 Repeater AUI port receiver acquires data packets from the network (AUIDIP/
AUIDIN). Only valid data streams above the squelch level activate the receive function. If the
differential signal at the DI circuit inputs falls below 75% of the threshold level (unsquelched) for 8
bit times (typical), the AUI receiver enters the idle state.
2.6.2
AUI Transmission
The LXT914 Repeater AUI port receives NRZ data from the repeater core, and passes it through a
Manchester encoder. The encoded data then goes out on the network (AUIDOP/AUIDON).
2.6.3
AUI Mode Selection (DTE/MAU)
The LXT914 Repeater allows the user to change the mode of the AUI from a DTE to a MAU
interface. This option is available on both 68- and 100-pin versions except as follows:
• When using the LEDJM/AUISEL pin to select the AUI interface mode the following is true:
After reset the state of the LEDJM/AUISEL pin is sensed for the correct mode. The LEDJM/
AUISEL pin when floated or pulled Low will select the DTE interface and the LEDJM/
AUISEL output is still available. When the LEDJM/AUISEL pin is pulled High the MAU
interface is selected and the LEDJM/AUISEL function is unavailable.
• The 100-pin PQFP has an additional pin, AUISEL (pin 30). When using this pin to select the
AUI interface mode the LEDJM/AUISEL pin is still a functional LED driver. The AUISEL
pin is not latched after reset and is actively polled to determine which AUI interface mode is to
be used. Refer to Table 13.
Table 13. AUI Mode Selection (DTE/MAU)
App #
AUISEL
(PQFP only)
LEDJM/
AUISEL
(both pkgs)
AUI Mode
1
Low
Low
DTE
default, 0-3
2
Low
High
MAU
1-3
3
High
Low
MAU
default, 0-3
4
High
High
MAU
1-3
Note:
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Available
LED
Modes
Application 3 is valid only when using the 100-pin PQFP.
Intel® LXT914 Flexible Quad Ethernet Repeater
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Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
2.7
Collision Handling
A collision occurs when two or more repeater ports receive simultaneously, or when the AUI CIP/
CIN signal is active. The LXT914 Repeater fully complies with the IEEE 802.3 collision
specifications, both in individual and multi-repeater applications. In multiple-repeater
configurations, collision signaling on the IRB allows all repeaters to share collision parameters,
acting as a single large repeater.
IRCOL is a digital open-drain pin. IRCFS is an analog/digital port. The IRCOL and IRCFS lines
are pulled up globally (i.e., each signal requires one pull-up resistor for all boards). If there are
eight 3-repeater boards in the system, all eight boards share a single pull-up resistor for IRCOL and
a single pull-up resistor for IRCFS. The global pull-up may be located on one of the boards, or on
the backplane. The IRCFS line requires a precision (± 1%) resistor.
The IRENA, IRDAT and IRDEN lines are each pulled up locally (one pull-up resistor per board) if
external bus drivers are used. If no bus drivers are used then only one global pull-up per signal is
used.
2.8
Security Mode
The LXT914 Repeater security mode is fully transparent to the user. In the External management
mode, the security feature is available for all four TP ports and the AUI port. In the Local mode,
security is available for the TP ports only (the SECAUI input is reassigned as FPS). The security
inputs are normally held Low to disable the security feature. Any input can independently be pulled
High to scramble the respective port for any given length of time. For applications which do not
require security control, the SEC pins must be tied Low.
The security mode pins are real time response inputs. This allows the board designer to screen the
destination address with an application specific device and (on match of the destination address) to
assert the security input to jam the respective port for the given frame. This real time detection and
jam assertion method provides the flexibility to implement customer specific solutions. The
destination address decoding and security signal assertion functions can be integrated into the
external management device.
2.9
LED Display
The LED display interface consists of seven integrated LED drivers, one for each of the five
network ports and two for common functions. Each pin provides a three-state pulsed output (+5 V,
high Z, and 0 V) which allows multiple conditions to be monitored and reported independently.
Table 14 shows the LED Mode selected with each LEDM1 and LEDM0 combination. Figure 5
shows the LED Driver output conditions, and Table 15 through Table 18 list the repeater states
associated with each of the five conditions.
Note:
Datasheet
If LED mode 0 is selected and the LEDJM/AUISEL pin is High (which selects MAU Mode), the
device defaults to LED Mode 1. LED Mode 0 is not available when LEDJM/AUISEL is pulled
High.
Intel® LXT914 Flexible Quad Ethernet Repeater
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Intel® LXT914 Flexible Quad Ethernet Repeater
Table 14.
LED Mode Selection
LEDM1
LEDM0
PLCC pin
35
17
PQFP pin
40
14
Low
Low
0
Note 1
Low
High
1
High
Low
2
High
High
3
Note:
1.
Table 15.
Table 16.
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LED Mode
Selected
This mode is not available when using the LEDJM/AUISEL pin to
select a MAU interface in the AUI port. In this case, the LED Mode
defaults to LED Mode 1.
LED Mode 0 (Default)
This mode is selected when LEDM1 and LEDM0 are floating or pulled
Low. Refer to Table 15. This mode is not available when using the
LEDJM/AUISEL pin to select a MAU interface in the AUI port. In this case,
the LED Mode defaults to Mode 1.
LED Mode 1
This mode is selected when LEDM1 is floating or pulled Low and LEDM0
is pulled High by a pull-up resistor. Refer to Table 16.
LED Mode 2
This mode is selected when LEDM1 is pulled High by a pull-up resistor
and LEDM0 is floating or pulled Low. Refer to Table 17.
LED Mode 3.
This mode is selected when LEDM1 is pulled High by a pull-up resistor
and LEDM0 is also pulled High by a pull-up resistor. Refer to Table 18.
Mode 0 (Default) LED Truth Table
Condition
LEDTP 1–4
LEDAUI
LEDCF
LEDJM
1
Rx Link Pulse
N/A
FIFO Error
Manchester Code Violation
2
Tx Packet
Tx Packet
N/A
N/A
3
Reversed Polarity
N/A
Collision
4
Rx Packet
Rx Packet
N/A
N/A
5
Partitioned Out
Partitioned Out
N/A
N/A
MAU Jabber Lockup
Protection (MJLP)
Mode 1 LED Truth Table
Condition
LEDTP 1–4
LEDAUI
LEDCF
LEDJM
1
Rx Link Pulse
N/A
MAU Jabber Lockup
Protection (MJLP)
N/A
2
N/A
N/A
N/A
N/A
3
N/A
N/A
Collision
N/A
4
Rx Packet
Rx Packet
N/A
N/A
5
N/A
N/A
N/A
N/A
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 17.
Table 18.
Datasheet
Mode 2 LED Truth Table
Condition
LEDTP 1–4
LEDAUI
LEDCF
LEDJM
1
Rx Link Pulse
N/A
MAU Jabber Lockup
Protection (MJLP)
N/A
2
Partitioned Out
Partitioned Out
N/A
N/A
3
N/A
N/A
Collision
N/A
4
Rx Packet
Rx Packet
N/A
N/A
5
N/A
N/A
N/A
N/A
Mode 3 LED Truth Table
Condition
LEDTP 1–4
LEDAUI
LEDCF
LEDJM
1
Rx Link Pulse
N/A
MAU Jabber Lockup
Protection (MJLP)
N/A
2
Rx Packet
Rx Packet
N/A
N/A
3
Partitioned Out
Partitioned Out
Collision
N/A
4
N/A
N/A
N/A
N/A
5
N/A
N/A
N/A
N/A
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
25
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 5.
Integrated LED Driver Indications
+5 V
2 mA Operation
5 mA Operation
+5 V
820 Ω
330 Ω
Red
Red
LXT914
LED
Driver
LXT914
LED
Driver
470 Ω
Green
70 Ω
Green
820 Ω
330 Ω
Condition 1:
Steady Green
4 ms
4 ms 4 ms
Condition 2:
Blinking Green
4 ms 4 ms
4 ms 4 ms
+5V
High Z
0V (Gnd)
256 ms
4 ms
4 ms 4 ms
256
ms
4 ms 4 ms
4 ms 4 ms
4 ms
4 ms 4 ms
+5V
High Z
0V (Gnd)
Condition 3:
Steady Red
4 ms 4 ms
4 ms
Condition 4:
Blinking Red
+5V
High Z
0V (Gnd)
256 ms
256 ms
4 ms 4 ms
4 ms 4 ms
4 ms 4 ms
4 ms 4 ms
+5V
High Z
0V (Gnd)
5.33 Hz
Condition 5:
Alternating Red/Green
4 ms 4 ms
4 ms 4 ms
4 ms
4 ms 4 ms
+5V
High Z
0V (Gnd)
93.75 ms
31-Oct-2005
26
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
3.0
Application Information
3.1
Layout Requirements
3.1.1
The Twisted Pair Interface
The four, twisted-pair output circuits are identical. Each TPDOP/TPDON signal has a 24.9 Ω, 1%,
series resistor and a 120pF capacitor differentially across the positive and negative outputs. These
signals go directly to a 1:√2 transformer creating the necessary 100 Ω termination for the cable.
The TPDIP/TPDIN signals have a 100 Ω resistor across the positive and negative input signals to
terminate the 100 Ω signal received from the line. To calculate the impedance on the output line
interface, use:
(24.9 Ω + 24.9 Ω)
* √2
2
≈ 100 Ω.
The layout of the twisted-pair ports is critical in complex designs. Run the signals directly from the
device to the discrete termination components (located close to the transformers).
The signals running from the transformers to the connector should run in close pairs directly to the
connector. Be careful not to cross the transmit and receive pairs. One way to avoid a problem is to
run the receive pairs on the component side and the transmit pairs on the solder side. Careful
planning during the schematic and layout stages can avoid these problems.
The PCB layout should have no ground or power planes from the transformers to the connectors.
The data signals should be the only traces in this area. Place the chassis ground for the connectors
near the edge of the PCB, away from the signals, connecting the connector shield with the chassis.
3.1.2
The RBIAS Pin
The RBIAS signal sets the levels for the output drivers of the LXT914 Repeater. Any emissions or
common mode noise entering the device here could be measured on the twisted pair output signals.
The LXT914 Repeater requires a 12.4 kΩ, 1% resistor directly connected to RBIAS. This
connection should be as short as possible. The ground rails from the adjacent ground pins should
come directly off of the device to enclose the resistor and pin forming a shielded area between the
RBIAS connection and the switching signals on the PCB.
3.2
12-Port Hub Repeater
Figure 6 through Figure 9 (Sheets 1 through 4) show a simple 12-port hub repeater application with
three LXT914 Repeaters. This application also provides two additional AUI ports—one DB-15
connector and one coaxial port. The application shown uses the asynchronous backplane mode so
no external backplane clock source is required.
Figure 6 (Sheet 1) shows the XL93C46 EEPROM which downloads the setup parameters for all
the LXT914 Repeater devices at initialization. (This EEPROM could be replaced with a simple
pull down resistor on the SDI pin. This will select the default conditions of the set up register.) A
single 20 MHz crystal provides the SYSCLK for all three LXT914 Repeater. The
LXT914 Repeater hub repeater on Sheet 1 provides the AUI DB-15 connector as well as four
twisted-pair ports. Table 19 lists transformers suggested for use with the LXT914 Repeater.
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
27
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 7 (Sheet 2) shows a second LXT914 Repeater hub repeater with four TP ports and a coaxial
port. The MD-001 coax transceiver is used to implement the port. Figure 8 (Sheet 3) shows the
third LXT914 Repeater device with its four TP ports and indicator LEDs. The AUI port of the third
LXT914 Repeater is not used. Figure 9 (Sheet 4) of the schematic shows the LEDs for the
remaining LXT914 Repeaters, along with the LED operation table.
3.3
8-Port Print or File Server
Figure 10 and Figure 11 (Sheets 1 and 2) show an eight-port repeater attachment for an existing
single port AUI or 10BASE5 interface. This application can be added to a current design with an
existing AUI or 10BASE5 interface. This circuit allows increased connectivity without the need for
another external remote hub. The application shown is a 68-pin PLCC, an asynchronous backplane
with both LXT914 Repeaters in the first position.
In Figure 10 (Sheet 1) the LXT914 Repeater is set up with the LEDs in Mode 1 with one LED per
port and a single collision LED. The twisted pair port LEDs display link integrity only. (Refer to
Table 16.) LED Mode 1 is selected by pulling LEDM0 High with a 1 kΩ resistor on pin 17 and
pulling LEDM1 Low with pin 35 attached to ground.
Figure 11 (Sheet 2) has the same configuration, mode of operation and LED Mode as used in Sheet
1. However, the AUI port has been configured as a MAU interface. This is selected when LEDJM/
AUISEL on pin 28 is pulled up through a 1 kΩ resistor. This mode disables the LEDJM pin as an
LED driver. (See Table 13.) The MAU interface now configured on the LXT914 Repeater allows
the AUI port to attach to a DTE interface. This application increases connectivity to any existing
single-port Ethernet design. This unique application allows the designer to integrate an external
hub, eliminating the need for additional external equipment.
Table 19. Manufacturers Magnetics List
Manufacturer
Quad Transmit
Quad Receive
Bell Fuse
S553-5999-02
S553-5999-03
–
Fil-Mag
23Z339
23Z338
–
HALO
(Octal)
Kappa
31-Oct-2005
28
Tx/Rx Pairs
TD54-1006L1
TD01-1006L1
TD42-2006Q; TD43-2006K; TG42-1406N1
TG54-1006N2
TG01-1006N2
TG43-1406N
–
–
TP4003P
TP497P101
–
TG44-S010NX
Nanopulse
5976
5977
–
PCA
EPE6009
EPE6010
–
Pulse Eng.
PE68810
PE68820
PE65745; PE65994; PE65746; PE65998
VALOR
PT4116
PT4117
PT4069N1; PT4068N1; ST7011S2; ST7010S2
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 6.
Datasheet
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 1 of 4)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
29
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 7.
31-Oct-2005
30
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 2 of 4)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 8.
Datasheet
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 3 of 4)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
31
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 9.
31-Oct-2005
32
12-Port Application Schematic, 68-Pin PLCC Package (Sheet 4 of 4)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 10.
Datasheet
8-Port Application Schematic, LED Mode 1 with AUISEL = MAU (Sheet 1 of 2)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
33
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 11.
31-Oct-2005
34
8-Port Application Schematic, LED Mode 1 with AUISEL = MAU (Sheet 2 of 2)
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
4.0
Test Specifications
Note:
Table 20.
Table 20 through Table 28 and Figure 12 and Figure 13 represent the performance specifications of
the LXT914. These specifications are guaranteed by test except where noted “by design.”
Minimum and maximum values listed in Table 22 through Table 28 apply over the recommended
operating conditions specified in Table 21.
Absolute Maximum Ratings
Parameter
Symbol
Min
Typ
Max
Units
VCC
-0.3
–
6
V
LXT914PC/QC
TOP
0
–
+70
°C
LXT914PE
TOP
-40
–
+85
°C
TST
-65
–
+150
°C
Supply voltage
Operating temperature
Storage temperature
Caution:
Table 21.
Exceeding these values may cause permanent damage. Functional operation
under these conditions is not implied. Exposure to maximum rating conditions
for extended periods may affect device reliability.
Recommended Operating Conditions
Parameter
Symbol
Min
Typ
Max
Units
VCC
4.75
5.0
5.25
V
LXT914PC/QC
TOP
0
–
+70
°C
LXT914PE
TOP
-40
–
+85
°C
Recommended supply voltage
Recommended operating temperature
Table 22.
I/O Electrical Characteristics1 (Sheet 1 of 2)
Parameter
Supply current
Input Low voltage
Input Low voltage (RESET)
Input High voltage
Input High voltage (RESET)
Symbol
Min
Typ2
Max
Units
ICC
–
–
240
mA
Test Conditions
100Ω test load, no LEDs
VIL
–
–
0.8
V
–
VILRESET
–
–
0.8
V
VCC = 5.25 V
VIH
2.0
–
–
V
–
VIHRESET
4.0
–
–
V
VCC = 4.75 V
V
IOL = 1.6 mA
Output Low voltage
VOL
–
–
0.4
Output Low voltage
VOL
–
–
10
Output Low voltage (LED)
VOLL
–
–
1.0
V
IOLL = 5 mA
Output High voltage
VOH
2.4
–
–
V
IOH = 40 μA
Output High voltage
VOH
90
–
–
Output High voltage (LED)
VOHL
4
–
–
% VCC IOL < 10 μA
% VCC IOH < 10 μA
V
IOHL = -5 mA
NOTES:
1.
Not applicable to IRB signals. IRB electrical characteristics are specified in Table 25.
2.
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
3.
Supply current may vary depending on the transformer, LED, and resistor selections.
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
35
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 22.
I/O Electrical Characteristics 1 (Sheet 2 of 2)
Symbol
Min
Typ2
Max
Units
Input Low current
IIL
–
–
2
mA
VOL = .4 V
Output rise / fall time
–
–
3
8
ns
CLOAD = 20 pF
1.0
–
–
ms
VCC = 4.75 V
–
–
20.0
μs
VIHRESET to VILRESET
Parameter
PWRESE
RESET pulse width
T
RESET fall time
TFRESET
Test Conditions
NOTES:
1.
Not applicable to IRB signals. IRB electrical characteristics are specified in Table 25.
2.
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
3.
Supply current may vary depending on the transformer, LED, and resistor selections.
Table 23.
AUI Electrical Characteristics
Symbol
Min
Typ1
Max
Units
Input Low current
IIL
–
–
-700
μA
Input High current
IIH
–
–
500
μA
Differential output voltage
VOD
±550
–
±1200
mV
Receive input impedance
ZIN
–
20
–
kΩ
Differential squelch threshold
VDS
–
220
–
mV
Parameter
Note:
1.
Table 24.
Test Conditions
Between CIP/CIN & DIP/
DIN
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
Twisted-Pair Electrical Characteristics
Symbol
Min
Typ1
Max
Units
Transmit output impedance
ZOUT
–
5
–
Ω
Peak differential output voltage
VOD
3.3
3.5
3.7
V
–
–
± 6.4
± 10
ns
0 line length
Parameter
Transmit timing jitter addition
Transmit timing jitter added by
the MAU and PLS sections2
Test Conditions
Load = 100 Ω at TPOP
and TPON
–
–
± 3.5
± 5.5
ns
After line model specified
by IEEE 802.3 for
10BASE-T
Receive input impedance
ZIN
–
20
–
kΩ
Between TPIP/TPIN
Differential squelch threshold
(Normal threshold: ERSQx = 0)
VDS
300
420
565
mV
5 MHz square wave input
Differential squelch threshold
(Reduced threshold: ERSQx = 1)
VDSL
180
250
345
mV
5 MHz square wave input
NOTES:
1.
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
2.
IEEE 802.3 specifies maximum jitter additions at 1.5 ns for the AUI cable, 0.5 ns from the encoder,
and 3.5 ns from the MAU.
31-Oct-2005
36
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Table 25.
IRB Electrical Characteristics
Symbol
Min
Typ1
Output Low voltage
VOL
–
.3
.6
V
Output rise or fall time
TF
–
4
12
ns
Input Low voltage: IRENA,
IRCOL & IRDAT
VILIRB
–
–
0.8
V
RL = 330 Ω
Input High voltage: IRENA,
IRCOL & IRDAT
VIHIRB
3.0
–
–
V
RL = 330 Ω
Input Low voltage: BCLKIO
VILBCLK
–
–
0.4
V
RL = 330 Ω
Input High voltage: BCLKIO
VIHBCLK
4.0
–
–
V
RL = 330 Ω
Parameter
Note:
1.
Table 26.
Max
Units
Test Conditions
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
Switching Characteristics
Min
Typ1
Max
Units
5.0
–
5.5
ms
–
9.6
–
μs
Time link loss
–
60
–
ms
Time between Link Integrity Pulses
10
–
20
ms
Interval for valid receive Link Integrity Pulses
4.1
–
30
ms
Parameter
Maximum transmit time
Jabber Timing
Unjab time
Link Integrity Timing
Note:
1.
Table 27.
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
Serial Port Timing—External Mode
Symbol
Minimum
Typical1
Maximum
Units
SCLKIO High to SENI Low (active)
tS1
0
–
50
ns
SCLKIO High to SDIN data valid
tS2
0
–
50
ns
SCLKIO High to SENO Low (active)
tS3
5
–
15
ns
SCLKIO Low to SDOUT data valid
tS4
5
–
15
ns
Parameter
Note:
1.
Datasheet
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
37
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 12.
Serial Port Timing
SCLKIO
RESET
tS1
SENI
tS2
SDIN
tS3
SENO
tS4
1
2
3
4
5
6
48
SDOUT
Table 28.
Inter-Repeater Bus Timing
Symbol
Minimum
Typical1
Maximum
Units
Start of Frame to IRDEN Low (active)
tIRB1
10
–
150
ns
Start of Frame to IRENA Low (active)
tIRB2
125
–
225
ns
BCLKIO to IRDAT valid (Synchronous mode)
tIRB3
5
–
30
ns
BCLKIO to IRDAT valid (Asynchronous mode)
tIRB3
–
50
–
ns
IRENA Low (active) to TP outputs active
tIRB4
525
–
600
ns
IRENA Low (active) to AUI output active
tIRB5
475
–
525
ns
End of Frame clock to IRENA High (inactive)
tIRB6
5
–
30
ns
IRENA High (inactive) to IRDEN High
(inactive)
tIRB7
95
–
105
ns
Parameter
IRENA High (inactive) to TP outputs inactive
tIRB8
575
–
600
ns
IRENA High (inactive) to AUI output inactive
tIRB9
425
–
450
ns
Note:
1.
31-Oct-2005
38
Typical values are at 25° C and are for design aid only; they are not guaranteed and not subject to
production testing.
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 13.
Inter-Repeater Bus Timing
Rx DATA
tIRB4
TPs
tIRB8
tIRB5
tIRB9
AUI
tIRB7
tIRB1
IRDEN
tIRB6
tIRB2
IRENA
tIRB3
IRDAT
BCLKIO
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
39
Intel® LXT914 Flexible Quad Ethernet Repeater
5.0
Package Specifications
Figure 14.
LXT914PC/PE Package Specifications
68-Pin Plastic Leaded Chip Carrier
Part Number LXT914PC for Commercial Temperature Range (0°C to +70°C)
Part Number LXT914PE for Extended Temperature Range (-40°C to +85°C)
Dim
31-Oct-2005
40
Millimet
ers
Inches
Min
Max
Min
Max
A
0.165
0.180
4.191
4.572
A1
0.090
0.120
2.286
3.048
A2
0.062
0.083
1.575
2.108
B
0.050
–
1.270
–
C
0.026
0.032
0.660
0.813
D
0.985
0.995
25.019
25.273
D1
0.950
0.958
24.130
24.333
F
0.013
0.021
0.330
0.533
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 15.
LXT914QC Package Specifications
100-Pin Quad Flat Package
Part Number LXT914QC
Commercial Temperature Range (0 °C to +70°C)
Dim
Millimeters
Min
Max
Min
Max
A
–
0.134
–
3.40
A1
0.010
–
0.25
–
A2
0.100
0.120
2.55
3.05
B
0.009
0.015
0.22
0.38
D
0.931
0.951
23.65
24.15
D1
0.783
0.791
19.90
20.10
D3
0.742 REF
E
0.695
0.715
17.65
18.15
E1
0.547
0.555
13.90
14.10
E3
0.486 REF
12.35 REF
e
(nominal)
0.026 BSC1
(nominal)
0.65 BSC1
L
0.026
L1
0.077 ref
q
0°
7°
0°
7°
q3
5°
16°
5°
16°
1.
Datasheet
Inches
18.85 REF
0.037
0.65
D Side pin count = 30
E Side pin count = 20
0.95
1.95 ref
BSC = Basic Spacing Between Centers
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
41
Intel® LXT914 Flexible Quad Ethernet Repeater
5.1
Top-Label Marking
Figure 16 shows a sample PLCC package for the LXT914 Repeater.
Note:
In contrast to the Pb-Free (RoHS-compliant) PLCC packages, the non-RoHS-compliant packages
do not have the “e3” symbol in the last line of the package label.
Figure 16.
Sample PLCC Package - Intel® LXT914 Repeater
Pin1
LXT914PC B3
Part Number
XXXXXXXX
FPO Number
BSMC
Bottom Side Mark Code
B5388-01
Figure 17 shows a sample Pb-Free (RoHS-compliant) PLCC package for the LXT914 Repeater.
Figure 17.
Sample Pb-Free (RoHS-Compliant) PLCC Package - Intel® LXT914 Repeater
Pin 1
EELXT914C B3
Part Number
XXXXXXXX
FPO Number
BSMC
e3
Pb-Free Indication
Bottom Side Mark Code
B5389-01
31-Oct-2005
42
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 18 shows a sample PQFP package for the LXT914 Repeater.
Note:
In contrast to the Pb-Free (RoHS-compliant) PQFP packages, the non-RoHS-compliant packages
do not have the “e3” symbol in the last line of the package label.
Figure 18.
Sample PQFP Package - Intel® LXT914 Repeater
Pin 1
LXT914QC B3
Part Number
XXXXXXXX
FPO Number
BSMC
Bottom Side Mark Code
B5390-01
Figure 19 shows a sample Pb-Free (RoHS-compliant) PQFP package for the LXT914 Repeater.
Figure 19.
Sample Pb-Free (RoHS-Compliant) PQFP Package - Intel® LXT914 Repeater
Pin 1
EGLXT914C B3
Part Number
XXXXXXXX
FPO Number
BSMC
e3
Pb-Free Indication
Bottom Side Mark Code
B5391-01
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
43
Intel® LXT914 Flexible Quad Ethernet Repeater
6.0
Product Ordering Information
Figure 29 and Figure 20 provide IXF1110 MAC product ordering information.
Table 29.
Product Ordering Information
Revision
Package Type
Pin Count
RoHS
Compliant
NLXT914PC.B3
B3
PLCC
68
No
EELXT914PC.B3
B3
PLCC
68
Yes
NLXT914PE.B3
B3
PLCC
68
No
Number
31-Oct-2005
44
EELXT914PE.B3
B3
PLCC
68
Yes
SLXT914QC.B3
B3
PQFP
100
No
EGLXT914QC.B3
B3
PQFP
100
Yes
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Figure 20.
Ordering Information Matrix – Sample
N
LXT
914
P
C
B3
Product Revision
xn = 2 Alphanumeric characters
Temperature Range
A = Ambient (0 – 550 C)
0
C = Commercial (0 – 70 C)
E = Extended (-40 – 850 C)
Internal Package Designator
L = LQFP
P = PLCC
N = DIP
Q = PQFP
H = QFP
T = TQFP
B = BGA
C = CBGA
E = TBGA
K = HSBGA (BGA with heat slug
Product Code
xxxxx = 3-5 Digit alphanumeric
IXA Product Prefix
LXT = PHY layer device
IXE = Switching engine
IXF = Formatting device (MAC/Framer)
IXP = Network processor
Intel Package Designator
B5360-01
§§
Datasheet
Intel® LXT914 Flexible Quad Ethernet Repeater
Order Number: 248989, Revision: 003
31-Oct-2005
45
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